Arnold gave links to some publications about water adsorption on surfaces described with atomistic modeling. However, there are simples models, with simple hamiltonians, from which you can derive plenty of cool properties of adsorption of atoms on surfaces. (Here, I interpret your “bounded” as indicating physisorption; chemical bonds would be another topic altogether.)

Langmuir model: the simplest, most effective. The Hamiltonian is defined as: 0 if the atom is not on the surface, $-\epsilon$ if it is. Divide your surface as an ensemble of $N$ possible adsorption sites, and treat using statistical physics in the grand-canonical ensemble ($\mu, V, T$). Enjoy!

Possible improvements on Langmuir, such as the BET model, can describe multilayer adsorption.

It is also possible to complement these models (either Langmuir or BET) by accounting for lateral interactions, i.e. interactions between molecules sitting on neighboring sites on the surface.

I hope you find these models interesting, as they describe a lot of the phenomenology of adsorption. I'd be happy to discuss follow-up questions!

I have to look at the links but basically for now I was interested only on a certain "resolution" for the models. My main interest is to understand the dynamics of the geometry of a molecule which sits on the surface: mainly how can one describe the dynamics,how the properties of the surface and different physical interactions ( i.e electromagnetic) with the surface affect the dynamics of geometry of the molecule. I am certainly new to this problem and I do not have a hunch from where to start and also which level of detail is revelant for this problem.
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Caraiani ClaudiuMar 8 '12 at 22:15